2019
DOI: 10.1109/access.2019.2913989
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Lowest-Technical-Merit Design Methodology of Hypersonic Cruise Vehicle

Abstract: In the design of hypersonic cruise vehicles, great effort is demanded to improve the performances of subsystems, namely structure, aerodynamics, and propulsion. Herein, effort demanded to realize a subsystem performance is quantified by technical merit. To achieve a feasible design, excessive technical merit of any one subsystem should be avoided. Accordingly, a lowest-technical-merit (LTM) design methodology has been proposed in this work. By this methodology, the design problem could be interpreted into a pa… Show more

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Cited by 1 publication
(2 citation statements)
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“…Content may change prior to final publication. (13) Simultaneous equation (13) and equation (11) to obtain the state matrix of the closed-loop system. The matrix of closedloop system is in the following form: (14) The expected closed-loop matrix is: (15) making equation 14equals to equation (15), the timevarying controller matrix can be got:…”
Section: A Design Of Longitudinal Guidance Law Based On Tlcmentioning
confidence: 99%
See 1 more Smart Citation
“…Content may change prior to final publication. (13) Simultaneous equation (13) and equation (11) to obtain the state matrix of the closed-loop system. The matrix of closedloop system is in the following form: (14) The expected closed-loop matrix is: (15) making equation 14equals to equation (15), the timevarying controller matrix can be got:…”
Section: A Design Of Longitudinal Guidance Law Based On Tlcmentioning
confidence: 99%
“…Compared with the hypersonic cruise vehicle [13,14] , the RLVs should not only adapt to the near space flight environment, but also meet the technical requirements of the airport Horizontal takeoff and landing. The small wing area of the aircraft is beneficial to reduce the drag when the aircraft is flying at high speed.…”
Section: Introductionmentioning
confidence: 99%